SCF ubiquitin ligases regulate the degradation of many proteins involved in thecontrol of cell division and growth. F-box proteins are the SCF components that bind tosubstrates, and this binding is usually signaled by substrate phosphorylation. TheFbw7/hCdc4 F-box protein was first recognized by its binding to cyclin E, and theSCFFbw7 is now known to target c-Myc, c-Jun and Notch for degradation, in addition toits role in cyclin E proteolysis. Fbw7 thus negatively regulates several keyoncoproteins. Accordingly, Fbw7 is a tumor suppressor that is mutated in a widespectrum of human cancers, and Fbw7 functions as a haploinsufficient tumor suppressorin mice. Because there are three Fbw7 isoforms that reside in different subcellularcompartments, as well as multiple Fbw7 substrates that are the products of protooncogenes,the mechanisms of tumor suppression by Fbw7 are complex and incompletelyunderstood. In this review we discuss the activities of the SCFFbw7 in the context of itsrole as a tumor suppressor and highlight recent findings demonstrating that dominantoncogenes disable Fbw7 function.